Camera-lens waterproofing device

ABSTRACT

A camera-lens waterproofing device is provided, including a shell, a camera lens, a cover ring and an outer cover. A mounting hole is formed in a surface of the shell. The camera lens includes a body and a lens. One end of the body is disposed to the mounting hole, and the other end of the body extends out of the mounting hole. The lens is located at the other end of the body. The cover ring is connected to the body in a sleeving manner and fixed on the mounting hole. The outer cover is fixed at a periphery of the lens in a sleeving manner to form a first-layer waterproof structure and disposed on the surface of the shell, and covers the exterior of the cover ring. The cover ring abuts between the camera lens and the shell to form a second-layer waterproof structure.

CROSS-REFERENCE TO RELATED APPLICATION

This non-provisional application claims priority under 35 U.S.C. §119(a) to Patent Application No. 108109644 filed in Taiwan, R.O.C. onMar. 20, 2019, the entire contents of which are hereby incorporated byreference.

BACKGROUND Technical Field

The application relates to a waterproof structure, and particularlyrelates to a camera-lens waterproofing device.

Related Art

In order to achieve a waterproof design, a camera lens on an existingoutdoor doorbell includes an optical lens piece (plastic ester orglass), a waterproof backing adhesive layer, a waterproof rubber layer,a waterproof breathable film (for preventing condensation of watervapor) or a desiccant bag (for preventing the condensation of the watervapor, which is a consumable), and the like. Therefore, after beingassembled, the structure meets a requirement for waterproofing.

However, to avoid the influence on the definition of an image capturedby the camera lens, the optical lens piece outside the camera lens needsto be additionally coated with a film to avoid moisture, so money shouldbe spent on purchasing the optical lens piece and coating the film.Furthermore, in order to prevent the condensation of the water vapor, anair vent is also designed on the general optical lens piece to dischargeinternal hot air, and in order to avoid inflow of water droplets, thewaterproof breathable film is additionally provided, so extra materialcost and assembling cost are needed. Generally, if no breathablestructure is designed, the desiccant bag (dryer) is additionally usedinside, but this way needs regular replacement, which is time-consumingand costly.

SUMMARY

In view of this, an embodiment of the application provides a camera-lenswaterproofing device, including a shell, a camera lens, a cover ring andan outer cover. A mounting hole is formed in a surface of the shell. Thecamera lens includes a body and a lens. One end of the body is disposedon the mounting hole, and the other end of the body extends out of themounting hole. The lens is located at the other end of the body. Thecover ring is connected to the body in a sleeving manner and fixed tothe mounting hole. The cover ring includes an inner ring surfaceabutting against the body, and an outer ring surface abutting against awall surface of the mounting hole. The outer cover is arranged at aperiphery of the lens in a sleeving manner and disposed on the surfaceof the shell, and covers an exterior of cover ring.

In some embodiments, the outer cover includes an outer layer and aninner layer, the inner layer is disposed on an inner side of the outerlayer. A thread screwed to a periphery of the camera lens is formed atone end of the inner layer.

In some embodiments, an air vent is formed in the outer cover. Abreathable film is attached to an inner side of the air vent. A hollowring slot is formed in the inner side of the outer cover.

In some embodiments, an accommodating chamber is formed on the innerside of the outer cover corresponding to the shell, the body and thecover ring.

In some embodiments, the inner side of the outer cover extends to form arod piece. A through hole for allowing the rod piece to pass through isformed in the surface of the shell. An end portion of the rod piece isthermally molten to an inner side surface of the shell.

In some embodiments, a plurality of hooks is annularly arranged on theinner side of the outer cover, and a plurality of fastening slotsrotatably fastened with all the hooks is formed in the surface of theshell.

In some embodiments, a groove is formed in an inner side of each hook,and an inner side of each fastening slot extend to form an elastic arm.a protruding block fastened to the groove is protruded from a sidesurface of the elastic arms.

In some embodiments, a broken opening is formed in the cover ring.

In some embodiments, the cover ring includes a ring body abuttingagainst a surface of the camera lens, and an outer end portion formingon one end of the ring body and stuck to the surface of the shell.

In some embodiments, the cover ring includes an inner end portionforming on the other end of the ring body and stuck to an inner sidesurface of the shell.

In some embodiments, the camera-lens waterproofing device furtherincludes a plurality of sealing pieces respectively attached between theshell and the outer cover, between the shell and the cover ring, orbetween the camera lens and the cover ring.

In some embodiments, the camera-lens waterproofing device furtherincludes a panel attached to the surface of the shell.

According to the above, in one embodiment of the application, the outercover covers the periphery of the camera lens to form a first-layerwaterproof structure, and the cover ring abuts between the camera lensand the shell to form a second-layer waterproof structure. If the cameralens is exposed outside the shell, it is not necessary to stick a lenspiece or a breathable layer, or place a desiccant bag, which reduces thematerial cost, the assembling cost and the consumable expenses.Furthermore, the air vent for discharging air is additionally formed inthe outer cover, which enhances discharging of the water vapor andavoids ponding. Furthermore, the air vent is at a hidden position, andthe inner layer (a waterproof breathable film) may also be selectivelyattached, which does not cause the problem of backflow of waterdroplets, either.

The detailed features and advantages of the application are describedbelow in great detail through the following embodiments, the content ofthe detailed description is sufficient for those skilled in the art tounderstand the technical content of the application and to implement theapplication there accordingly. Based upon the content of thespecification, the claims, and the drawings, those skilled in the artcan easily understand the relevant objectives and advantages of theapplication.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic appearance diagram of a camera-lens waterproofingdevice according to a first embodiment of the application;

FIG. 2 is a schematic exploded diagram of the camera-lens waterproofingdevice according to the first embodiment of the application;

FIG. 3 is a schematic cross-sectional diagram of the camera-lenswaterproofing device according to the first embodiment of theapplication;

FIG. 4 is a schematic exploded diagram of a camera-lens waterproofingdevice according to a second embodiment of the application;

FIG. 5 is a schematic cross-sectional diagram of the camera-lenswaterproofing device according to the second embodiment of theapplication;

FIG. 6 is a schematic exploded diagram of a camera-lens waterproofingdevice according to a third embodiment of the application;

FIG. 7 is a schematic cross-sectional diagram of the camera-lenswaterproofing device according to the third embodiment of theapplication;

FIG. 8 is a schematic appearance diagram before rotatable fasteningaccording to the third embodiment of the application; and

FIG. 9 is a schematic appearance diagram after rotatable fasteningaccording to the third embodiment of the application.

DETAILED DESCRIPTION OF THE EMBODIMENTS

Referring to FIG. 1 to FIG. 3, FIG. 1 is a schematic appearance diagram,FIG. 2 is a schematic exploded diagram, and FIG. 3 is a schematiccross-sectional diagram. According to a first embodiment of theapplication, a camera-lens waterproofing device 100A is used on anoutdoor doorbell, but is not limited thereto. In some implementationexamples, the camera-lens waterproofing device 100A may be also used onan outdoor monitor, or on small-sized portable photographic equipment.Here, the camera-lens waterproofing device 100A includes a shell 1, acamera lens 9, an outer cover 2A and a cover ring 3A.

Referring to FIG. 1 to FIG. 3, in the present embodiment, a mountinghole 11 is formed in a surface of the shell 1.

Referring to FIG. 1 to FIG. 3, in the present embodiment, the cameralens 9 includes a body 91 and a lens 912. One end of the body 91 isdisposed in the mounting hole 11, and the other end of the body 91extends out of the mounting hole 11. The lens 912 is located at theother end of the body 91.

Referring to FIG. 1 to FIG. 3, in the present embodiment, the cover ring3A is connected to the body 91 in a sleeving manner and fixed on themounting hole 11. The cover ring 3A includes an inner ring surface 301abutting against the surface of the body 91, and an outer ring surface302 abutting against the wall surface of the mounting hole 11.

Referring to FIG. 1 to FIG. 3, in the present embodiment, the outercover 2A is arranged at a periphery of the lens 912 in a sleeving mannerand disposed on the surface of the shell 1, and covers the exterior ofthe cover ring 3A.

Referring to FIG. 1 to FIG. 3, in the present embodiment, the outercover 2A covers the shell 1 and is fixed at a periphery of the cameralens 9 to play a role of preventing water vapor from permeating from agap between the outer cover 2A and the camera lens 9 and preventingwater vapor from permeating from a gap between the outer cover 2A andthe shell 1, and the outer cover 2A is used as a guard of a first-layerwaterproof structure on the outermost layer around the camera lens 9.The cover ring 3A is fixed between the camera lens 9 and the mountinghole 11 to play a role of preventing water vapor from permeating from agap between the camera lens 9 and the mounting hole 11, and the coverring 3A is used as a guard of a second-layer waterproof structure on theinnermost layer around the camera lens 9. If the camera lens 9 providedis directly exposed outside the shell 1, it is not necessary to stick alens piece or a breathable layer outside or place a desiccant bag, whichreduces the material cost, the assembling cost and the expenses onconsumables and the like.

Referring to FIG. 1 to FIG. 3, more specifically, in the presentembodiment, the shell 1 is a rectangular housing. The mounting hole 11is formed in one side of the surface of the shell 1, and a button 8 isarranged on the other side of the surface of the shell 1. The cameralens 9 is arranged on the mounting hole 11. A circuit board 7 isarranged in the shell 1, and is locked to the inner side of the shell 1.The button 8 and the camera lens 9 are electrically connected to thecircuit board 7.

Referring to FIG. 1 to FIG. 3, more specifically, in the presentembodiment, the camera lens 9 includes the body 91 and a base 92. Thebase 92 is welded on the circuit board 7. The body 91 is screwed to thebase 92, and has an outer ring portion 911 and the lens 912 located atthe top of the outer ring portion 911. A thread 913 may be formed at anouter edge of the outer ring portion 911. The body 91 extends out of themounting hole 11 such that the lens 912 is exposed outside the mountinghole 11. Herein, all the parts of the camera lens 9 may be integrallypre-packaged and welded on the circuit board 7, and the structure of thecamera lens 9 has an effect of preventing the permeation of water vapor.

Referring to FIG. 1 to FIG. 3, more specifically, in the presentembodiment, the outer cover 2A is a horn-shaped ring body and isarranged on the surface of the shell 1. The outer cover 2A covers theperiphery of the camera lens 9 to form the first-layer waterproofstructure. Furthermore, the outer cover 2A covers around the camera lens9 such that the lens 912 of the camera lens 9 is exposed from a roundhole in the center of the outer cover 2A.

Referring to FIG. 1 to FIG. 3, more specifically, in the presentembodiment, the outer cover 2A includes an outer layer 21 and an innerlayer 22 disposed on the inner side of the outer layer 21. A thread 223screwed to the periphery of the camera lens 9 is formed at one end ofthe inner layer 22. Herein, the thread 223 of the inner layer 22 is thethread 913 screwed to the outer ring portion 911 of the camera lens 9,but is not limited thereto. In some implementation examples, if theouter ring portion 911 of the camera lens 9 is not provided with thethread 913, the thread 223 of the inner layer 22 may also be closelystuck to the outer ring portion 911 (as shown in FIG. 4 and FIG. 5). Inaddition, the outer layer 21 is a hard glue layer made of polycarbonate(PC) and acrylonitrile butadiene styrene (ABS), and the inner layer 22is a flexible glue layer made of thermoplastic polyurethane (TPU).

Referring to FIG. 1 to FIG. 3, more specifically, in the presentembodiment, an air vent 29 is formed in the surface of the outer cover2A. A hollow ring slot is formed in the inner side of the outer cover2A. An accommodating chamber 20 is formed on the inner side of the outercover 2A among the shell 1, the body 91, the cover ring 3A and the outercover 2A, and is used as a guide space for air. When hot air generatedby an electronic element (such as an element on the circuit board 7) inthe shell 1 is emitted to the accommodating chamber 20, the hot air maybe discharged from the air vent 29, thereby preventing water dropletsformed by the hot air from being accumulated in the accommodatingchamber 20. In addition, a waterproof breathable film 291 may be furtherattached to the inner side of the air vent 29 to prevent rainwater frompermeating into the accommodating chamber 20 through the air vent 29.Furthermore, the air vent 29 is at a hidden position, and an inner layer(the breathable film 291) may be selectively additionally attached,which may not cause the problem of backflow of the water droplets,either.

Referring to FIG. 1 to FIG. 3, more specifically, in the presentembodiment, the cover ring 3A is a round plastic ring. The cover ring 3Ais fixed to the mounting hole 11. The cover ring 3A is connected to thecamera lens 9 in a sleeving manner to form a second-layer waterproofstructure. The inner ring surface 301 of the cover ring 3A abuts againstthe surface of the camera lens 9, and the outer ring surface 302 of thecover ring 3A abuts against the wall surface of the mounting hole 11.

Referring to FIG. 1 to FIG. 3, more specifically, in the presentembodiment, the structure of the cover ring 3A is matched with theappearance design of the structure of the camera lens 9. The cover ring3A includes a ring body 31 abutting against the surface of the cameralens 9, and an outer end portion 32 forming on one end of the ring body31 and stuck to the surface of the shell 1. It can be seen that thecross sections of the ring body 31 and the outer end portion 32 are bothof a T shape. Herein, the inner side surface of the ring body 31 of thecover ring 3A is closely stuck to the base 92 of the camera lens 9, andthe inner side surface of the outer end portion 32 of the cover ring 3Ais closely stuck to the body 91 of the camera lens 9.

Referring to FIG. 1 to FIG. 3, more specifically, in the presentembodiment, a broken opening 39 is formed in the cover ring 3A. Theinner diameter of the cover ring 3A is less than the outer diameter ofthe camera lens 9. During mounting, the broken opening 39 of the coverring 3A is expanded to increase the inner diameter of the cover ring 3Auntil the cover ring 3A may be mounted outside the camera lens 9. Inaddition, when stuffed into the mounting hole 11, the cover ring 3A ispressed by the wall surface at the hole edge of the mounting hole 11,and the broken opening 39 of the cover ring 3A is closed, and the coverring 3A closes the gap between the camera lens 9 and the mounting hole11 to prevent water vapor from permeating from the gap between thecamera lens 9 and the mounting hole 11.

Referring to FIG. 1 to FIG. 3, more specifically, in the presentembodiment, the camera-lens waterproofing device 100A further includes apanel 5. The panel 5 is attached to the surface of the shell 1. One endof the outer cover 2A is attached to the panel 5, and the other end ofthe outer cover 2A covers the periphery of the camera lens 9.Furthermore, the cover ring 3A is connected to a perforated position ofthe panel 5 in a sleeving manner.

Referring to FIG. 1 to FIG. 3, more specifically, in the presentembodiment, the camera-lens waterproofing device 100A further includes aplurality of sealing pieces 4A. All the sealing pieces 4A arerespectively attached between the panel 5 and the outer cover 2A,between the panel 5 and the shell 1, and/or between the panel 5 and thecover ring 3A, and are not limited thereto. In some embodiments, whenthe design of the panel 5 is omitted, all the sealing pieces 4A arerespectively attached between the shell 1 and the outer cover 2A,between the shell 1 and the cover ring 3A, and/or between the cameralens 9 and the cover ring 3A.

Referring to FIG. 1 to FIG. 3, more specifically, in the presentembodiment, each of the sealing pieces 4A is a double-faced adhesive,but is not limited thereto. In some implementation examples, the sealingpieces 4A may also be glue. Particularly, glue type sealing pieces 4Bare dispensed between the camera lens 9 and the cover ring 3A (as shownin FIG. 3), so as to permeate into the gap between the camera lens 9 andthe cover ring 3A.

Referring to FIG. 4 to FIG. 5, FIG. 4 is a schematic exploded diagram,and FIG. 5 is a schematic cross-sectional diagram. According to a secondembodiment of the application, a difference between a camera-lenswaterproofing device 100B of the second embodiment and the camera-lenswaterproofing device 100A of the first embodiment lies in that: an outercover 2B and the shell 1 of the present embodiment are combined in a hotmelting manner. The inner side of the outer cover 2B extends to theoutside to form a rod piece 23. A through hole 13 for allowing the rodpiece 23 to run through is formed in the surface of the shell 1. An endportion of the rod piece 23 is thermally molten after passing throughthe through hole 13, so that a protruding block is formed at the endportion of the rod piece 23. The protruding block is fixed to the innerside surface of the shell 1 to enable the outer cover 2B to be stablylocated on the shell 1.

Referring to FIG. 4 and FIG. 5, a difference between the camera-lenswaterproofing device 100B of the second embodiment and the camera-lenswaterproofing device 100A of the first embodiment lies in that: thestructure of a cover ring 3B of the present embodiment is matched withthe appearance design of the structure of the camera lens 9. The coverring 3B includes a ring body 31 abutting against the surface of thecamera lens 9, an outer end portion 32 forming on one end of the ringbody 31 and stuck to the surface of the shell 1, and an inner endportion 33 forming on the other end of the ring body 31 and stuck to theinner side surface of the shell 1. It can be seen that the crosssections of the ring body 31, the outer end portion 32 and the inner endportion 33 are all of a

shape. Herein, a plurality of protruding ribs 312 is formed on the innerside surface of the ring body 31 of the cover ring 3B. All theprotruding ribs 312 closely abut against the body 91 of the camera lens9, so that the cover ring 3B closes the gap between the camera lens 9and the mounting hole 11.

Referring to FIG. 6 to FIG. 9, FIG. 6 is a schematic exploded diagram,FIG. 7 is a schematic cross-sectional diagram, FIG. 8 is a schematicappearance diagram before rotatable fastening, and FIG. 9 is a schematicappearance diagram after rotatable fastening. FIG. 8 and FIG. 9 are backsurfaces of an outer cover 2C and the shell 1. According to a thirdembodiment of the application, a difference between a camera-lenswaterproofing device 100C of the third embodiment and the camera-lenswaterproofing device 100A of the first embodiment lies in that: theouter cover 2C and the shell 1 of the present embodiment are rotatablyfastened. A plurality of hooks 24 is annularly arranged on the innerside of the outer cover 2C, and a plurality of fastening slots rotatablyfastened with respective hooks 24 is formed in the surface of the shell1.

Referring to FIG. 6 to FIG. 9, a difference between the camera-lenswaterproofing device 100C of the third embodiment and the camera-lenswaterproofing device 100A of the first embodiment lies in that: grooves241 are formed in the inner sides of the hooks 24 of the presentembodiment, and fastening slots 14 are formed on the panel 5 as shown inFIG. 6. Furthermore, the inner sides of the fastening slots 14 extend toform elastic arms 15, and protruding blocks 151 fastened to the grooves241 protrude from the side surfaces of the elastic arms 15, but theapplication is not limited thereto. In some implementation examples,when the structure of the panel 5 is omitted, the inner sides of thefastening slots 14 on the shell 1 may extend to form the elastic arms15, and protruding blocks 151 (as shown in FIG. 8 and FIG. 9) fastenedto the grooves 241 protrude from the side surfaces of the elastic arms15. When the outer cover 2C is assembled on the shell 1, the hooks 24 ofthe outer cover 2C are aligned with and mounted into the fastening slots14, and then the outer cover 2C is rotated such that the hooks 24 arefastened with the elastic arms 15 and the protruding blocks 151 on theelastic arms 15 are clamped into the grooves 241 in the hooks 24,thereby enabling the outer cover 2C to be stably located on the shell 1.

Referring to FIG. 6 to FIG. 9, in the present embodiment, high-densityelastic bodies 6 (poron, a microcellular polymer material) are arrangedbetween the outer cover 2C and the shell 1, and have a uniformmicrocellular structure. The elastic bodies 6 may be arranged in thefastening slots 14 of the panel 5 or the fastening slots 14 of the shell1, or the elastic bodies 6 may be arranged in the hooks 24. When theouter cover 2C and the shell 1 are rotatably fastened, the hooks 24 moveto the inner sides of fastening slots 14 and press the elastic bodies 6,and the cellular structures of the pressed elastic bodies 6 aredifficult to damage. The elastic bodies 6 may be closely stuck betweenthe hooks 24 and the fastening slots 14, so that the elastic bodies 6close gaps between the hooks 24 and the fastening slots 14.

Referring to FIG. 6 to FIG. 9, in the present embodiment, the structureof a cover ring 3C is matched with the appearance design of thestructure of the camera lens 9. The cover ring 3C includes a ring body31 abutting against the surface of the camera lens 9, and an outer endportion 32 forming on one end of the ring body 31 and abutting againstthe surface of the shell 1. It can be seen that the cross sections ofthe ring body 31 and the outer end portion 32 are both of an L shape.Herein, an internal thread 313 screwed to the body 91 of the camera lens9 is formed on the inner side surface of the ring body 31 of the coverring 3C, and a thread correspondingly screwed to the internal thread 313is formed on the body 91, so that the cover ring 3C closes the gapbetween the camera lens 9 and the mounting hole 11.

The outer cover 2A and the shell 1 of the first embodiment are attachedin a gluing manner. The outer cover 2B and the shell of the secondembodiment are combined in the hot melting manner, and the shell 1 andthe outer cover 2B of the second embodiment may also be combined throughthe gluing manner of the first embodiment. The outer cover 2C and theshell 1 of the third embodiment are rotatably fastened, and the cameralens 9 and the outer cover 2C, or the shell 1 and the cover ring 3C ofthe third embodiment may also be combined through the gluing manner ofthe first embodiment at the same time.

Particularly, as shown in FIG. 7, sealing pieces 4A are attached to theinner side of the thread 223 of the inner layer 22 of the outer cover 2Cof the third embodiment. After the thread 223 of the inner layer 22 isscrewed to the thread 913 on the outer ring portion 911 of the cameralens 9, the sealing pieces 4A are closely attached to the thread 223 andthe thread 913, so that the sealing pieces 4A close a gap between thethread 223 and the thread 913.

According to the above, in the camera-lens waterproofing device of oneembodiment of the application, the outer cover covers the periphery ofthe camera lens to form the first-layer waterproof structure, and thecover ring abuts between the camera lens and the shell to form thesecond-layer waterproof structure. If the camera lens is directlyexposed outside the shell, it is not necessary to stick a lens piece ora breathable layer outside, or place a desiccant bag, which reduces thematerial cost, the assembling cost and the consumable expenses.Furthermore, the air vent for discharging air is additionally set on theouter cover, which enhances discharging of the water vapor and avoidsponding. Furthermore, the air vent is at a hidden position, and theinner layer (the waterproof breathable film) may also be selectivelyattached, which does not cause the problem of backflow of waterdroplets, either. In addition, the camera-lens waterproofing device mayreach the IPX6 waterproofing grade.

Although the invention is described with reference to the aboveembodiments, the embodiments are not intended to limit the invention. Aperson of ordinary skill in the art may make variations andmodifications without departing from the spirit and scope of theinvention. Therefore, the protection scope of the invention should besubject to the appended claims.

What is claimed is:
 1. A camera-lens waterproofing device, comprising: ashell, a mounting hole being formed in a surface of the shell; a cameralens, comprising a body and a lens, one end of the body being disposedin the mounting hole, and the other end of the body extending out of themounting hole, and the lens being located at the other end of the body;a cover ring, connected to the body in a sleeving manner and fixed onthe mounting hole, the cover ring comprising an inner ring surface andan outer ring surface, the inner ring surface abutting against the body,and the outer ring surface abutting against a wall surface of themounting hole; and an outer cover, arranged at a periphery of the lensin a sleeving manner, disposed on the surface of the shell, and coveringan exterior of the cover ring, wherein the outer cover comprises anouter layer and an inner layer, the inner layer is disposed on an innerside of the outer layer, and a thread fastened to a periphery of thecamera lens is formed at one end of the inner layer.
 2. The camera-lenswaterproofing device according to claim 1, wherein an air vent is formedin the outer cover; a breathable film is attached to an inner side ofthe air vent; and a hollow ring slot is formed in the inner side of theouter cover.
 3. The camera-lens waterproofing device according to claim2, wherein an accommodating chamber is formed on the inner side of theouter cover corresponding to the shell, the body and the cover ring. 4.The camera-lens waterproofing device according to claim 1, wherein theinner side of the outer cover extends to form a rod piece; a throughhole for allowing the rod piece to pass through is formed in the surfaceof the shell; and an end portion of the rod piece is thermally molten toan inner side surface of the shell.
 5. The camera-lens waterproofingdevice according to claim 1, wherein a plurality of hooks is annularlyarranged on the inner side of the outer cover, and a plurality offastening slots rotatably fastened with the plurality of hooks is formedin the surface of the shell.
 6. The camera-lens waterproofing deviceaccording to claim 5, wherein a groove is formed in an inner side ofeach hook; an inner side of each fastening slot extends to form anelastic arm; and a protruding block fastened to the groove is protrudedfrom a side surface of the elastic arm.
 7. The camera-lens waterproofingdevice according to claim 1, further comprising a plurality of sealingpieces, respectively attached between the shell and the outer cover,between the shell and the cover ring, or between the camera lens and thecover ring.
 8. The camera-lens waterproofing device according to claim1, further comprising a panel, attached to the surface of the shell. 9.A camera-lens waterproofing device, comprising: a shell, a mounting holebeing formed in a surface of the shell; a camera lens, comprising a bodyand a lens, one end of the body being disposed in the mounting hole, andthe other end of the body extending out of the mounting hole, and thelens being located at the other end of the body; a cover ring, connectedto the body in a sleeving manner and fixed on the mounting hole, thecover ring comprising an inner ring surface and an outer ring surface,the inner ring surface abutting against the body, and the outer ringsurface abutting against a wall surface of the mounting hole; and anouter cover, arranged at a periphery of the lens in a sleeving manner,disposed on the surface of the shell, and covering an exterior of thecover ring, wherein a broken opening is formed in the cover ring. 10.The camera-lens waterproofing device according to claim 9, wherein thecover ring comprises a ring body abutting against a surface of thecamera lens, and an outer end portion forming on one end of the ringbody and stuck to the surface of the shell.
 11. The camera-lenswaterproofing device according to claim 10, wherein the cover ringcomprises an inner end portion forming on the other end of the ring bodyand stuck to an inner side surface of the shell.